Ellen Phelps scite author profile

Treatment of cultured primary human thyroid cells with IFN-γ and TNF-α uniquely allows the induction of Fas-mediated apoptosis. To investigate the role of this cytokine combination in vivo, CBA/J mice were immunized with thyroglobulin and then injected with IFN-γ and TNF-α. Compared with control animals, mice treated with IFN-γ and TNF-α showed significantly sustained lymphocytic infiltration in the thyroid, which was associated with the destruction of portions of the follicular architecture at wk 6 after initial immunization. Furthermore, the number of apoptotic thyroid follicular cells was increased only in the thyroids from mice treated with the IFN-γ and TNF-α. We also analyzed the function of the Fas pathway in vivo in cytokine-treated mice by using an agonist anti-Fas Ab injected directly into the thyroid. Minimal apoptosis of thyroid epithelial cells was observed unless the mice were pretreated with IFN-γ and TNF-α. These data demonstrate that this unique combination of inflammatory cytokines facilitates the apoptotic destruction of thyroid follicular cells in experimental autoimmune thyroiditis, in a manner similar to what is observed in Hashimoto’s thyroiditis in humans.

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Spectrum of Mutations in the RPGR Gene That Are Identified in 20% of Families with X-Linked Retinitis Pigmentosa

Buraczyńska

Fujita

et al. 1997

The American Journal of Human Genetics

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The RPGR (retinitis pigmentosa GTPase regulator) gene for RP3, the most frequent genetic subtype of X-linked retinitis pigmentosa (XLRP), has been shown to be mutated in 10%-15% of European XLRP patients. We have examined the RPGR gene for mutations in a cohort of 80 affected males from apparently unrelated XLRP families, by direct sequencing of the PCR-amplified products from the genomic DNA. Fifteen different putative disease-causing mutations were identified in 17 of the 80 families; these include four nonsense mutations, one missense mutation, six microdeletions, and four intronic-sequence substitutions resulting in splice defects. Most of the mutations were detected in the conserved N-terminal region of the RPGR protein, containing tandem repeats homologous to those present in the RCC-1 protein (a guanine nucleotide-exchange factor for Ran-GTPase). Our results indicate that mutations either in as yet uncharacterized sequences of the RPGR gene or in another gene located in its vicinity may be a more frequent cause of XLRP. The reported studies will be beneficial in establishing genotype-phenotype correlations and should lead to further investigations seeking to understand the mechanism of disease pathogenesis.

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Parathyroid Hormone Induces Receptor Activity Modifying Protein-3 (RAMP3) Expression Primarily Via 3′,5′-Cyclic Adenosine Monophosphate Signaling in Osteoblasts

et al. 2005

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Parathyroid hormone (PTH) has significant anabolic and catabolic effects on bone. We hypothesize that PTH-induced primary response genes are important determinants of osteoblast function. PTH induces osteoblastic gene expression through PTHR1, a heptahelical receptor that triggers cyclic adenosine monophosphate (cAMP)-protein kinase A (PKA), protein kinase C (PKC), and calcium signaling. By using representational difference analysis we found that receptor activity modifying protein-3 (RAMP3) is a PTH-induced primary response gene in osteoblastic cells. RAMP3 is a coactivator that directs calcitonin receptor (CTR) and CTR-like receptor (CRLR) glycosylation, trafficking, and ligand-binding specificity. Our purpose was to characterize PTH-induced RAMP3 messenger ribonucleic acid (mRNA) levels in primary mouse osteoblasts (MOBs) and to determine which signaling pathway mediates this effect. 10 nM PTH maximally induced RAMP3 mRNA levels in MOBs at 4 hours. Protein synthesis inhibition with 3 microg/mL cycloheximide did not affect PTH-induced RAMP3 mRNA levels. Selective activation of cAMP-PKA signaling with, 10 microM forskolin (FSK) and PKC signaling with 1 microM phorbol 12-myristate 13-acetate (PMA) significantly increased RAMP3 mRNA levels, whereas 1 microM ionomycin (a calcium ionophore) had no effect. Pretreatment with 30 microM H89, a PKA inhibitor, significantly blocked PTH- and FSK-induced RAMP3 mRNA levels. Pretreatment with 1 microM PMA, which depletes PKC, had no effect on PTH- and FSK-induced RAMP3 mRNA levels but blocked PMA-induced RAMP3 mRNA levels. 100 nM PTH (3-34), which activates PKC and calcium but not PKA, had no effect on RAMP3 mRNA levels. These findings indicate that RAMP3 is a PTH-induced primary response gene in primary MOBs and that PTH regulates RAMP3 gene expression primarily through the cAMP-PKA pathway.

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Susceptibility of Thyroid Cancer Cells to 7-Hydroxystaurosporine–Induced Apoptosis Correlates with Bcl-2 Protein Level

Wang

Phelps

Utsugi

et al. 2001

Thyroid

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7-Hydroxystaurosporine (UCN-01) is a selective protein kinase C (PKC) inhibitor and is being developed as a novel anticancer agent. Because of reports that PKC may be involved in the pathogenesis of some forms of thyroid cancers, we examined four thyroid carcinoma lines (FRO, KAT5, NPA, and WRO). These cells were found to have different susceptibility to UCN-01 treatment, and there appeared to be a correlation between UCN-01-induced death and expression levels of endogenous Bcl-2. KAT5 cells, which normally express a low amount of Bcl-2, exhibited significantly higher sensitivity to UCN-01-induced death than the other cell lines. Of interest, susceptibility did not relate to PKC activity or its inhibition by UCN-01. In order to investigate the role of Bcl-2 in UCN-01-induced death, KAT5 cells were transfected to overexpress Bcl-2. KAT5/Bcl-2 cells were capable of conferring resistance to UCN-01-induced death. Furthermore, upregulating of Bcl-2 by 1alpha,25-dihydroxyvitamin D3 (VD3) could protect primary thyroid cell from death induced by UCN-01. Both in situ TUNEL staining and the flow cytometric analysis of cytokeratin-18 (CK18) cleavage confirmed that UCN-01 was indeed inducing apoptosis, and that this effect was inhibited by increased expression of Bcl-2. These results suggest that the Bcl-2 can block the UCN-01-activated cell death pathway and that the expression of Bcl-2 is inversely related to thyroid carcinoma cell susceptibility to UCN-01. Therefore, the analysis of the expression of apoptosis suppressors provides a basis for the use of UCN-01 in the treatment of thyroid cancer.

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Ellen Phelps

A Unique Combination of Inflammatory Cytokines Enhances Apoptosis of Thyroid Follicular Cells and Transforms Nondestructive to Destructive Thyroiditis in Experimental Autoimmune Thyroiditis

Spectrum of Mutations in the RPGR Gene That Are Identified in 20% of Families with X-Linked Retinitis Pigmentosa

Parathyroid Hormone Induces Receptor Activity Modifying Protein-3 (RAMP3) Expression Primarily Via 3′,5′-Cyclic Adenosine Monophosphate Signaling in Osteoblasts

Susceptibility of Thyroid Cancer Cells to 7-Hydroxystaurosporine–Induced Apoptosis Correlates with Bcl-2 Protein Level

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